Abstract
As an ancient cellular co-factor ubiquitously present in all domains of life, nearly all iron-sulfur ([Fe-S]) clusters are assembled in the mitochondrion. Although multiple mitochondrion-derived signalings are known to be key players in longevity regulation, whether the mitochondrial [Fe-S] cluster assembly machinery modulates lifespan is previously unknown. Here, we find that ISCU-1, the C. elegans ortholog of the evolutionarily conserved iron-sulfur cluster (ISC) assembly machinery central protein ISCU, regulates longevity and stress response. Specifically, ISCU-1 accelerates aging in the intestine. Moreover, we identify the Nrf2 transcription factor SKN-1 and a nuclear hormone receptor NHR-49 as the downstream factors of ISCU-1. Lastly, a mitochondrial outer membrane protein phosphatase PGAM-5 appears to link ISCU-1 to SKN-1 and NHR-49 in lifespan regulation. Together, we have identified a novel function of mitochondrial ISC assembly machinery in longevity modulation and stress response.
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